CN219741941U - Glove adsorbing mechanism of glove turn-over machine - Google Patents

Abstract

The utility model discloses a glove adsorbing mechanism of a glove turn-over machine, which comprises a transmission device and an upper adsorbing device, wherein the transmission device comprises a driving connecting plate and a motor arranged on the driving connecting plate; the upper adsorption device comprises a sucker connecting plate and an upper needle type sucker arranged on the sucker connecting plate, and the motor is in lifting connection with the sucker connecting plate through a gear and rack structure so as to drive the upper needle type sucker to vertically downwards adsorb gloves or lift the gloves; the magnetic steel and the magnetic induction switch are arranged in the transmission device and the upper adsorption device, so that the work precision of the glove is improved; the upper needle type sucker is arranged in the upper adsorption device, so that the upper needle type sucker is utilized to achieve effective adsorption to the glove rib top, and the automation level of the equipment is further enhanced.

Description

Glove adsorbing mechanism of glove turn-over machine

Technical Field

The utility model relates to the technical field of glove turnover machine accessory structures, in particular to a glove adsorption mechanism of a glove turnover machine.

Background

The glove turn-over machine commonly adopts the following forms: front and rear hand modes, male and female modes, foot pedal mode, etc. The manual glove turning speed is low, the labor intensity requirement on operators is high, along with the development of society and the improvement of automation level, the requirements of customers on glove turning machines are also higher and higher, so that different manufacturers are continuously researching and developing and improving various glove turning machines according to respective ideas to meet the demands of markets and customers, and the production efficiency and automation level of the glove turning machines are improved.

Based on this, the present application is presented.

Disclosure of Invention

The utility model aims to provide a glove adsorbing mechanism of a glove turn-over machine, which can adsorb and lift gloves so as to automatically support the gloves.

The technical aim of the utility model is realized by the following technical scheme: the glove adsorbing mechanism of the glove turn-over machine comprises a transmission device and an upper adsorbing device, wherein the upper adsorbing device is arranged below the transmission device;

the transmission device comprises a driving connecting plate and a motor arranged on the driving connecting plate;

the upper adsorption device comprises a sucker connecting plate and an upper needle type sucker arranged on the sucker connecting plate, and the motor is connected with the sucker connecting plate in a lifting manner through a gear and rack structure so as to drive the upper needle type sucker to vertically descend to adsorb gloves or lift the gloves.

Preferably, the transmission device further comprises a motor base, the gear is located in the motor base, the motor is arranged on the motor base, a driving shaft of the motor is connected with the gear after passing through the motor base, the sucker connecting plate is arranged below the pushing plate, the racks are vertically distributed, the tail ends of the racks are fixedly connected with the pushing plate after passing through a sliding groove of the motor base and the driving connecting plate, and the racks are meshed with the gear.

Preferably, an upper switch plate is arranged at the upper end of the motor base, the upper magnetic induction switch is arranged on the upper switch plate, the upper magnetic steel is arranged on the rack, and the upper magnetic steel and the upper magnetic induction switch are correspondingly arranged.

Preferably, two sides of the pushing plate are provided with vertically distributed upper sliding shafts, and one end of each upper sliding shaft is fixedly connected with the pushing plate after passing through a flange bearing on the driving connecting plate and is in sliding connection with the flange bearing.

Preferably, the sucker connecting plate is arranged below the push plate through a lower sliding shaft, one end of the lower sliding shaft is fixedly connected with the sucker connecting plate after being arranged in a shaft hole of the push plate and a pressure spring, and the pressure spring is arranged between the push plate and the sucker connecting plate.

Preferably, the pushing plate is provided with a fixing seat, the tail end of the rack is fixedly connected with the fixing seat after passing through a chute of the motor base and a driving connecting plate, the rear side of the fixing seat is provided with a lower switch plate, a lower magnetic induction switch is arranged on the lower switch plate, a magnetic steel base is connected with the other end of the lower sliding shaft, lower magnetic steel is arranged on the magnetic steel base, and the lower magnetic steel and the lower magnetic induction switch are correspondingly arranged

The utility model has the beneficial effects that:

1. the structure that the transmission device drives the upper adsorption device to lift is adopted, so that the upper adsorption device descends to adsorb the glove and ascends to lift the glove, and the automation level of the equipment is enhanced;

2. the magnetic steel and the magnetic induction switch are arranged in the transmission device and the upper adsorption device, so that the work precision of the glove is improved;

3. the upper needle type sucker is arranged in the upper adsorption device, so that the upper needle type sucker is utilized to achieve effective adsorption to the glove rib top, and the automation level of the equipment is further enhanced.

Drawings

FIG. 1 is an exploded view of the present utility model;

FIG. 2 is a schematic illustration of an assembly of the present utility model;

FIG. 3 is a schematic representation of the operation of the present utility model;

FIG. 4 is another operational schematic of the present utility model;

FIG. 5 is a further operational schematic of the present utility model;

in the figure: 1. an upper left slide shaft; 2. a left flange bearing; 3. a left linear bearing; 4. a lower magnetic induction switch; 5. a lower magnetic steel; 6. a magnetic steel seat; 7. a lower left slide shaft; 8. a left compression spring; 9. a push plate; 10. a sucker connecting plate; 11. a needle-up sucking disc is arranged; 12. a right pressure spring; 13. a lower right slide shaft; 14. a fixing seat; 15. a right linear bearing; 16. a lower switch board; 17. a right flange bearing; 18. an upper right slide shaft; 19. a driving connecting plate; 20. a rack; 21. magnetic steel is arranged on the steel plate; 22. a cover plate; 23. a gear; 24. an upper magnetic induction switch; 25. an upper switch board; 26. a motor base; 27. a motor;

40. a transmission device;

50. an upper adsorption device;

60. a glove;

70. and a conveying device.

Detailed Description

The following description is only of preferred embodiments of the present utility model, and the scope of protection is not limited to the examples, but the technical solutions falling under the concept of the present utility model should fall under the scope of protection of the present utility model, and it should be pointed out that, for those skilled in the art, these modifications and adaptations should and are considered as well, without departing from the principle of the present utility model.

Referring to fig. 1 to 2, the glove adsorbing mechanism of the glove turning machine of the present utility model comprises a transmission device 40 and an upper adsorption device 50, wherein the upper adsorption device 50 is arranged below the transmission device 40,

the transmission device 40 comprises a drive connection plate 19 and a motor 27 arranged on the drive connection plate; the upper adsorption device 50 comprises a sucker connecting plate 10 and an upper needle sucker 11 arranged on the sucker connecting plate; the motor 27 is connected with the sucker connecting plate 10 in a lifting way through a gear 23 and rack 20 structure, and the transmission device 40 drives the upper needle sucker 11 of the upper suction device 50 to vertically downwards suck gloves or lift up and lift up the gloves.

Specifically, the transmission device 40 further comprises a motor seat 26, the motor seat 26 is connected to the driving connection plate 19, the gear 23 is located in the motor seat 26, the motor 27 is arranged on the left side of the motor seat 26, a driving shaft of the motor 27 is connected with the gear 23 after passing through the motor seat 26, the sucker connection plate 10 is arranged below the pushing plate 9, the rack 20 is vertically distributed, the tail end of the rack 20 is fixedly connected with the pushing plate 9 after passing through a chute of the motor seat 26 and the driving connection plate 19, the rack 20 is meshed with the gear 23, and the transmission device further comprises a cover plate 22, and the cover plate 22 is arranged on the right side of the motor seat 26.

Specifically, the upper switch plate 25 is connected to the upper end of the motor base 26, the upper magnetic induction switch 24 is disposed on the upper switch plate 25, the upper magnetic steel 21 is disposed on the rack 20, and the upper magnetic steel 21 is disposed corresponding to the upper magnetic induction switch 24.

Specifically, two sides of the pushing plate 9 are provided with vertically distributed upper sliding shafts, one ends of the upper sliding shafts are fixedly connected with the pushing plate 9 after passing through flange bearings on the driving connecting plate 19 and are in sliding connection with the flange bearings, in this embodiment, the upper sliding shafts comprise an upper left sliding shaft 1 and an upper right sliding shaft 18, the flange bearings comprise a left flange bearing 2 and a right flange bearing 17, the left flange bearing 2 and the right flange bearing 17 are respectively arranged in shaft holes of the driving connecting plate 19, and the upper left sliding shaft 1 and the upper right sliding shaft 18 are fixedly connected with the pushing plate 9 after passing through the left flange bearing 2 and the right flange bearing 17.

Specifically, the sucker connecting plate 10 is disposed below the push plate 9 through a lower sliding shaft, one end of the lower sliding shaft is fixedly connected with the sucker connecting plate 10 after being disposed in a shaft hole of the push plate 9 and a pressure spring, the pressure spring is disposed between the push plate 9 and the sucker connecting plate 10, in this embodiment, the lower sliding shaft includes a lower left sliding shaft 7 and a lower right sliding shaft 13, the pressure spring includes a left pressure spring 8 and a right pressure spring 12, this embodiment further includes a left linear bearing 3 and a right linear bearing 15, the left linear bearing 3 and the right linear bearing 15 are respectively disposed in the shaft hole of the push plate 9, and one ends of the lower left sliding shaft 7 and the lower right sliding shaft 13 are respectively fixedly connected with the sucker connecting plate 10 after passing through the left linear bearing 3 and the right linear bearing 15, and the left pressure spring 8 and the right pressure spring 12.

Specifically, the upper adsorption device further comprises a fixing seat 14, the fixing seat 14 is arranged on the push plate 9, the tail end of the rack 20 is fixedly connected with the fixing seat 14 after passing through a chute of a motor seat 26 and a driving connecting plate 19, the lower magnetic induction switch 4 is arranged on a lower switch plate 16, the lower switch plate 16 is arranged on the rear side of the fixing seat 14, the magnetic steel seat 6 is connected to the other end of a lower sliding shaft, in the embodiment, the lower sliding shaft is a lower left sliding shaft 7, the lower magnetic steel 5 is arranged on the magnetic steel seat 6, and the lower magnetic steel 5 and the lower magnetic induction switch 4 are correspondingly arranged.

The working principle of the utility model is as follows: referring to fig. 3, the conveying device 70 conveys the glove 60 to move leftwards, after the thumb of the glove 60 encounters the photoelectric switch, the photoelectric switch sends a signal to enable the conveying device 70 to stop conveying, then the gear 23 is driven by the motor 27 to rotate and drive the rack 20, the fixed seat 14, the pushing plate 9, the upper left sliding shaft 1, the upper right sliding shaft 18 and the upper adsorption device 50 to vertically move downwards until the upper needle sucker 11 is abutted against the rib mouth of the glove 60; referring to fig. 4, the rack 20, the fixed seat 14, the lower magnetic induction switch 4 and the pushing plate 9 continue to move downwards, because the left pressure spring 8 and the right pressure spring 12 are respectively arranged on the lower left sliding shaft 7 and the lower right sliding shaft 13 and are positioned between the pushing plate 9 and the sucker connecting plate 10, the pushing plate 9 compresses the left pressure spring 8 and the right pressure spring 12, so that the upper needle sucker 11 compresses the screw hole of the glove 60, then the lower magnetic induction switch 4 senses with the lower magnetic steel (not shown) arranged on the magnetic steel seat 6 and sends out a signal, and the motor stops rotating; referring to fig. 5, the upper needle type suction cup 11 opens and adsorbs the screw hole of the glove 60, then the motor 27 drives the gear 23 to rotate reversely, and drives the rack 20, the fixed seat 14, the pushing plate 9, the upper left sliding shaft 1, the upper right sliding shaft 18 and the upper adsorption device 50 to move vertically upwards, so that the screw hole of the upper needle type suction cup 11 adsorbs the glove 60 to move upwards synchronously, and far away from the conveying device 70, when the upper magnetic steel (not shown) arranged on the rack 20 corresponds to the upper magnetic induction switch 24, the upper magnetic induction switch 24 sends a signal, the motor 27 stops rotating, and then the next process flow is performed.

The above embodiments are illustrative of the present utility model, and not limiting, and any simple modifications of the present utility model fall within the scope of the present utility model.

Claims (6)

1. The glove adsorbing mechanism of the glove turn-over machine is characterized by comprising a transmission device (40) and an upper adsorbing device (50), wherein the upper adsorbing device (50) is arranged below the transmission device (40);

the transmission device (40) comprises a driving connecting plate (19) and a motor (27) arranged on the driving connecting plate;

the upper adsorption device (50) comprises a sucking disc connecting plate (10) and an upper needle type sucking disc (11) arranged on the sucking disc connecting plate, and the motor (27) is in lifting connection with the sucking disc connecting plate (10) through a gear (23) and rack (20) structure so as to drive the upper needle type sucking disc (11) to vertically descend to adsorb gloves or lift up gloves.

2. The glove adsorbing mechanism of the glove turning machine according to claim 1, wherein the transmission device further comprises a motor seat (26), the gear (23) is located in the motor seat (26), the motor (27) is arranged on the motor seat (26), a driving shaft of the motor is connected with the gear (23) after passing through the motor seat (26), the sucker connecting plate (10) is arranged below the push plate (9), the racks (20) are vertically distributed, the tail ends of the racks are fixedly connected with the push plate (9) after passing through a sliding groove of the motor seat (26) and the driving connecting plate (19), and the racks (20) are meshed with the gear (23).

3. The glove adsorbing mechanism of the glove turning machine according to claim 2, wherein an upper switch plate (25) is arranged at the upper end of the motor base (26), the upper magnetic induction switch (24) is arranged on the upper switch plate (25), the upper magnetic steel (21) is arranged on the rack (20), and the upper magnetic steel (21) and the upper magnetic induction switch (24) are correspondingly arranged.

4. The glove adsorbing mechanism of the glove turning machine according to claim 2, wherein two sides of the pushing plate (9) are provided with vertically distributed upper sliding shafts, and one end of each upper sliding shaft is fixedly connected with the pushing plate (9) through a flange bearing on the driving connecting plate (19) and is in sliding connection with the flange bearing.

5. The glove adsorbing mechanism of a glove turning machine according to any one of claims 2 to 4, wherein the suction cup connecting plate (10) is arranged below the push plate (9) through a sliding shaft, one end of the sliding shaft is fixedly connected with the suction cup connecting plate (10) after being arranged in a shaft hole of the push plate (9) and a pressure spring, and the pressure spring is arranged between the push plate (9) and the suction cup connecting plate (10).

6. The glove adsorbing mechanism of the glove turning machine according to claim 5, wherein the pushing plate (9) is provided with a fixing seat (14), the tail end of the rack (20) is fixedly connected with the fixing seat (14) through a chute of a motor seat (26) and a driving connecting plate (19), a lower switch plate (16) is arranged at the rear side of the fixing seat (14), a lower magnetic induction switch (4) is arranged on the lower switch plate (16), a magnetic steel seat (6) is connected to the other end of a lower sliding shaft, a lower magnetic steel (5) is arranged on the magnetic steel seat (6), and the lower magnetic steel (5) and the lower magnetic induction switch (4) are correspondingly arranged.